Answer:
0.050V
Explanation:
To solve this problem it is necessary to use the concepts related to the potential between two objects that have a magnetic field, this concept is represented in the equation.
[tex]\int dV = \int_{0}^{l/2} Bv (dl)[/tex]
Where,
v= tangencial velocity
B = Magnetic Field
We know for definition that,
[tex]v= l\omega[/tex]
Where,
L = length
[tex]\omega =[/tex] Angular velocity
We can replace this values in our first equation then,
[tex]\int dV = \int_{0}^{l/2} B (l\omega) (dl)[/tex]
Integrating we have,
[tex]V = \frac{1}{8} Bl^2 \omega[/tex]
Replacing the values,
[tex]V= \frac{1}{8} (8*10^{-3})(12.56)(4)[/tex]
[tex]V = 0.050V[/tex]
Therefore the potential difference between the center of the rod and the other rod is 0.050V
